12,000 kg-m/s
12, 000 kg-m/s
The momentum of the spaceship is given by the product of its mass and velocity. Therefore, the velocity of the spaceship can be calculated by dividing its momentum by its mass. In this case, the velocity would be 75 m/s to the right.
(Momentum) = (mass) x (velocity) If you know the momentum and the mass, you can find the velocity. Do you know how to do algebra? (velocity) = (Momentum) / (mass) = (30,000 kg m/s) / (400 kg) = 75 m/s
To find the magnitude of the impulse, you can use the equation: Impulse = Force x Time. In this case, the force is 400 N and the time is 1 second. Therefore, the magnitude of the impulse is 400 N*s.
The average momentum of the runner in this case can be calculated by multiplying the mass of the runner by the average velocity. The average velocity of the runner is the total distance divided by the total time taken, which in this case is 400m/50s = 8 m/s. Therefore, the average momentum is 50 kg * 8 m/s = 400 kg.m/s.
The average momentum of the runner can be calculated by multiplying the mass of the runner by his average velocity. To find the average velocity, we divide the distance covered by the time taken. In this case, the average momentum would be 9400 kg m/s.
75 m/s "Apex"
The momentum of the spaceship is given by the product of its mass and velocity. Therefore, the velocity of the spaceship can be calculated by dividing its momentum by its mass. In this case, the velocity would be 75 m/s to the right.
Magnitude of momentum = (mass) x (speed)Mass = 50 kgSpeed = (400/50) meters per secondMagnitude of momentum = (50) x (400/50) = 400 kg-m/sec
Jet engine blast is a lot more than the plane move. A velocity of jet engine exhaust velocity is 3200 m/s for boing 747-400 top speed (velocity 212 m/s).Addition to thruster velocity principle:Velocity is associate with momentum of plane where the mass of air to move must be balance with its' velocity in compare to plane mass and velocity.Where the plane is massive in ratio to exhaust thruster mass. Thruster must be compensate with higher velocity in the ratio to plane mass.
KE = 1/2 M V2 = 1/2 (2) (20)2 = 400 kg-m2/sec2 = 400 joules
(Momentum) = (mass) x (velocity) If you know the momentum and the mass, you can find the velocity. Do you know how to do algebra? (velocity) = (Momentum) / (mass) = (30,000 kg m/s) / (400 kg) = 75 m/s
The kinetic energy E of a body with mass m and velocity v is defined as E = mv2/2 You can write this formula as v2 = 2E/m So to obtain the velocity of the object at the base of the swing, take the square root of 2E/m.
Momentum = (mass) x (velocity)= (400 kg) x (5 m/sec) = 2,000 kilogram-meters per second
To find the magnitude of the impulse, you can use the equation: Impulse = Force x Time. In this case, the force is 400 N and the time is 1 second. Therefore, the magnitude of the impulse is 400 N*s.
Momentum = mass x speedSince Spaceship-#1 is not moving, it has no momentum. Their combined momentumis that of Spaceship-#2 alone.Momentum = mass x speed = 200 x 10 = 2,000 kilogram-meters per second.
Tunis is about 400 miles east of Algiers
kinetic energy is 1/2mv^2, our velocity is 20 m/s , our mass is 2000 kg. Plugging it in you get 1/2 (2000) (400) = 1000 * 400 = 400000 joules